Content ranges from Mendelian genetics to computational procedures based on the complete genome. Examples from eukaryotic species, including humans, are emphasized. Topics include classical transmission genetics, cytogenetics, DNA structure and replication, gene function, mutation and repair, regulation, recombinant DNA technology, and structural, functional and comparative genomics. Weekly hours: 3 Lecture hours and 3 Practicum/Lab hoursPrerequisite(s): BIOL 120.Note: BIOL 121 is strongly recommended. Students with credit for BIOL 211 will not receive credit for BIOL 226. Costs in addition to tuition will apply to this course. Please contact the department for details.
Content ranges from Mendelian genetics to computational procedures based on the complete genome. Examples from eukaryotic species, including humans, are emphasized. Topics include classical transmission genetics, cytogenetics, DNA structure and replication, gene function, mutation and repair, regulation, recombinant DNA technology, and structural, functional and comparative genomics. Weekly hours: 3 Lecture hours and 3 Practicum/Lab hoursPrerequisite(s): BIOL 120.Note: BIOL 121 is strongly recommended. Students with credit for BIOL 211 will not receive credit for BIOL 226. Costs in addition to tuition will apply to this course. Please contact the department for details.
